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China Has Strongest Fibre That Can Haul 160 Elephants – and a Space Elevator?

posted by Fnord666 on Friday October 26 2018, @04:40PM   
from the space-elevator-or-vapor-wire dept.

MrPlow writes:

Submitted via IRC for AndyTheAbsurd

A research team from Tsinghua University in Beijing has developed a fibre they say is so strong it could even be used to build an elevator to space.

They say just 1 cubic centimetre of the fibre – made from carbon nanotube – would not break under the weight of 160 elephants, or more than 800 tonnes. And that tiny piece of cable would weigh just 1.6 grams.

"This is a breakthrough," said Wang Changqing, a scientist at a key space elevator research centre at Northwestern Polytechnical University in Xian who was not involved in the Tsinghua study.

The Chinese team has developed a new "ultralong" fibre from carbon nanotube that they say is stronger than anything seen before, patenting the technology and publishing part of their research in the journal Nature Nanotechnology earlier this year.

"It is evident that the tensile strength of carbon nanotube bundles is at least 9 to 45 times that of other materials," the team said in the paper.

But hey, it's China, please consume with a medium-sized boulder of salt.

Source: https://www.scmp.com/news/china/society/article/2170193/china-has-strongest-fibre-can-haul-160-elephants-and-space

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Original Submission

• Re:good job Chinese lab team Re:good job Chinese lab team (Score: 2) by Arik on Friday October 26 2018, @09:27PM (3 children)

  by Arik (4543) on Friday October 26 2018, @09:27PM (#754237) Journal

  Yep. Splice knots can preserve more of the strength, but they're not easy to do, and even that's not perfect. So again, the longer the fibers you start with, the better.

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• Re:good job Chinese lab team Re:good job Chinese lab team (Score: 0) by Anonymous Coward on Saturday October 27 2018, @01:24AM (2 children)

  by Anonymous Coward on Saturday October 27 2018, @01:24AM (#754324)

  In composite materials where large parts have to take tension, it's common for fibers to be bonded side-by-side (in shear) with a minimum of the adhesive (epoxy, or other).
  Nothing says that the space elevator needs a flexible tether.

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  • Re:good job Chinese lab team Re:good job Chinese lab team (Score: 2) by maxwell demon on Saturday October 27 2018, @06:55AM (1 child)

    by maxwell demon (1608) on Saturday October 27 2018, @06:55AM (#754387) Journal

    Nothing says that the space elevator needs a flexible tether.

    If it isn't flexible, how do you store it in a launch vehicle in order to get it up to space, in order to start building the space elevator?

    --
    The Tao of math: The numbers you can count are not the real numbers.

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    • Re:good job Chinese lab team (Score: 3, Informative) by Runaway1956 on Saturday October 27 2018, @11:56AM

      by Runaway1956 (2926) on Saturday October 27 2018, @11:56AM (#754422) Homepage Journal

      To answer *only* the question you asked: Make the fiber in space, and lower it to the ground. Thus, a rigid fiber cable need never be packed into a launch vehicle. Note that I have not attempted to explain where the materials for the fiber come from, or when or how the fiber fabrication plant came into being.

      I suspect though, that the more rigid the elevator is, the more susceptible to damage it would be. It's going to have to flex. The far end, at the counterweight, won't be absolutely motionless, after all. The moon will influence it's orbit, as well as the sun, and to a far lesser degree, each of the nearer planets.

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